Isoforms of trehalase and invertase of Fusarium oxysporum

Enzymatic assays and native PAGE were used to study trehalase and invertase activities, depending on culture age and different sugar conditions, in cell-free extracts, culture filtrates and ribosomal wash of Fusarium oxysporum. The activity of invertase preceded that of trehalase; in the exponential phase of growth, mainly invertase activity was produced, whereas trehalase activity was high in the stationary phase. In this last phase of growth, the activity of intracellular trehalase was repressed by monosaccharides, whereas disaccharides, especially lactose and starch, enhanced the activity of intracellular and extracellular trehalase. However, invertase activity was not repressed under these conditions and had the maximal activity in the presence of saccharose. Intracellular trehalase appeared in a single, high-molecular weight (120 kDa) form, whereas the extracellular enzyme appeared in a single, low-molecular weight (60 kDa) form. The activity pattern of invertase isoforms indicated the occurrence of three forms of intracellular enzyme with the main activity band at 120 kDa and two isoforms of extracellular enzyme. In the ribosomal wash, high-molecular weight isoforms of both trehalase and invertase were identified. A possible role of trehalase and invertase in carbohydrate metabolism of fungal pathogens is also discussed.     

Effect of culture medium and illumination on the acid invertase activity in callus of Medicago strasseri

The different acid invertase activity (total, soluble, wall-bound and extracellular) in calli induced on explants (cotyledon, petiole, hypocotyl and leaf) originated from Medicago strasseri seedlings were evaluated. In cultures subjected to 16 h photoperiod, the highest total, soluble and extracellular activities were found in calli from leaves cultured in medium 12 (MS with 0.01 mg·dm⁻³ (0.045 μM) of TDZ), elevated amounts of total and wall-bound invertase being found in calli induced on petioles in 12G medium (MS with 0.01 mg·dm⁻³ (0.045 μM) TDZ and 3.104 mg·dm⁻³ glycerol). In cultures maintained in darkness, the activity detected was lower than that observed in cultures under light conditions. The highest amounts of enzyme was bound in calli cultured on medium 12 (total and extracellular invertase) -leaves- and medium 12D (MS with 0.001 mg·dm⁻³ (0.0045 μM) TDZ) (soluble invertase) -using hypocotyls. In general, the different forms of invertase activity studied seem to appear in greatest amounts in calli induced under light conditions using leaves as explant and TDZ as growth regulator.     

The distribution of acid invertase in developing leaves of Lolium temulentum L.

The levels of invertase (E.C. 3.2.1.26) activity were measured throughout the development of the fourth leaf of Lolium temulentum. No neutral invertase activity was detected. Soluble acid invertase activity fell during leaf extension but rose again after ligule formation. This rise continued into senescence and was accompanied by the appearance of activity in the insoluble fraction. Evidence is presented that the insoluble activity was not an artefact of preparation, and that it represented an extracellular acid invertase. Fractionation of soluble invertase by gel filtration showed the appearance of a high molecular weight form at the time when insoluble activity was rising. The relationships between the different forms of the enzyme are discussed, together with their roles in leaf development.     

Sucrose mobilization in relation to essential oil biogenesis during palmarosa (<Emphasis Type="Italic">Cymbopogon martinii</Emphasis> Roxb. Wats. var.<Emphasis Type="Italic">motia</Emphasis>) inflorescence development

Palmarosa inflorescence with partially opened spikelets is biogenetically active to incorporate [U-¹⁴C]sucrose into essential oil. The percent distribution of¹⁴C-radioactivity incorporated into geranyl acetate was relatively higher as compared to that in geraniol, the major essential oil constituent of palmarosa. At the partially opened spikelet stage, more of the geraniol synthesized was acetylated to form geranyl acetate, suggesting that majority of the newly synthesized geraniol undergoes acetylation, thus producing more geranyl acetate.In vitro development of palmarosa inflorescence, fed with [U-¹⁴C]sucrose, resulted in a substantial reduction in percent label from geranyl acetate with a corresponding increase in free geraniol, thereby suggesting the role of an esterase in the production of geraniol from geranyl acetate. At time course measurement of¹⁴CO₂ incorporation into geraniol and geranyl acetate substantiated this observation. Soluble acid invertase was the major enzyme involved in the sucrose breakdown throughout the inflorescence development. The activities of cell wall bound acid invertase, alkaline invertase and sucrose synthase were relatively lower as compared to the soluble acid invertase. Sucrose to reducing sugars ratio decreased till fully opened spikelets stage, concomitant with increased acid invertase activity and higher metabolic activity. The phenomenon of essential oil biosynthesis has been discussed in relation to changes in these physiological parameters.     

Expression of human cytochrome p450 3A4 gene in Schizosaccharomyces pombe

Heterologous expression systems can be utilized to great advantage in the study of cytochrome P450 enzymes. P450 3A4 is one of the major forms of cytochrome P450 found in liver. It is also involved in the metabolism of numerous widely used drugs and xenobiotics. In the present study human liver cytochrome P450 3A4 gene was transferred into the fission yeast Schizosaccharomyces pombe via two different S. pombe expression vectors carrying thiamine repressible promoter — nmt1 (pREP42) and constitutive promoter — adh1 (pART1). Heterologously expressed cytochrome P450 3A4 was detected in the cells grown in minimal (EMM) or rich medium (YEL) containing 0.5% (w/v) glucose. A typical cytochrome P450 peak for 3A4 was observed at 448 nm in microsomal fraction. The presence of heterologous expression of 3A4 form was also determined by SDS-PAGE and it molecular mass was identified as 52 kDa. The enzyme activity was confirmed by HPLC analysis, using testosterone as substrate.     

Cytosolic and cell-wall-bound acid invertases from leaves of Urtica dioica L.: a comparison

Two different forms of acid invertase (EC 3.2.1.26) were extracted from expanding leaves of the stinging nettle (Urtica dioica L.). One form was soluble and could be localized within the cytosol, whereas the other was ionically bound to the cell-wall and could not be detected in protoplasts. Both forms were purified, the latter to homogeneity. Western blotting with antibodies against the pure enzyme from cell walls was positive with the cell-wall enzyme but negative with the soluble form of acid invertase. Both forms are glycoproteins with identical molecular weights of 58 kDa. The K_m values for sucrose (raffinose) are 5 mM (4.8 mM) for the soluble and 1.2 mM (3.6 mM) for the cell-wall-bound enzyme. The pH optimum of the latter is slightly more acidic (4.5) than that of the soluble invertase (5.5). Both forms could easily be distinguished by their isoelectric points which were determined at pH 4.6 for the soluble and pH 9.3 for the wall-bound enzyme. When extraction and purification were carried out in the absence of protease inhibitors, both acid invertases showed microheterogeneity (multiple forms). However, with benzamidine and phenylmethylsulfonylfluoride as protease inhibitors each invertase produced only one protein band upon isoelectric focusing and gel electrophoresis, respectively.Abbreviations B benzamidine - Con A concanavalin A - FPLC fast protein liquid chromatography - IEF isoelectric focusing - kDa kilodalton - pI isoelectric point - PAGE polyacrylamide gel electrophoresis - PMSF phenylmethylsulfonylfluoride - SDS sodium dodecyl sulfate This work was supported by the Deutsche Forschungsgemeinschaft within the scope of the Sonderforschungsbereich 137.     

A membrane-associated isozyme of invertase in yeast precursor of the external glycoprotein

An enzymatic test is described which allows the localization of yeast invertase activity directly on sodium dodecyl sulfate gels. When crude membrane fractions are prepared from Saccharomyces cerevisiae cells which are actively synthesizing external invertase, these membranes show an activity band on sodium dodecyl sulfate gels additional to the external and the internal invertase. In the soluble fraction this form was completely absent. It has a molecular weight of approximately 190 000 and was 50 000 smaller than the external invertase. It showed kinetic characteristics of a precursor of the external enzyme. Thus it appeared transiently, when yeast cells were shifted from a condition of non-synthesizing external invertase to one where the enzyme was synthesized. When the increase in the external enzyme slowed down after some time, the membrane-associated form almost completely disappeared.The addition of tunicamycin to yeast cells synthesizing external invertase inhibited further synthesis of the enzyme by 97%; also the formation of the membrane-associated form was strongly inhibited. The amount of it present before the addition of tunicamycin completely disappeared in the presence of the antibiotic. The precursor form, therefore, seems to possess already those carbohydrate parts which contain N-acetylglucosamine and are transferred via dolichyl phosphate-bound intermediates. The membrane-associated precursor amounts to less than 5% of the total invertase activity of a yeast cell.     

Accumulation and secretion of exoglucanase activity in yeast secretory mutants

Representative conditional yeast secretory mutants, blocked in transport of secretory and plasma membrane proteins from the endoplasmic reticulum (sec 18), from the Golgi body (sec 7) and in transport of secretory vesicles (sec 1), accumulated exoglucanase, a constitutive yeast activity, when incubated at the restrictive temperature (37°C). Different proportions of the accumulated activity were released by mutant cells under permissive conditions. The presence or absence of cycloheximide during the secretion period made no differences in the results. More than 90% of the internal activity was bound to membrane in wild type cells. However, only the soluble pool underwent changes during the accumulation or secretion periods. The bulk of secretory invertase accumulated by sec 1 was also soluble. By contrast sec 7 and sec 18 accumulated membrane-bound as well as soluble invertase forms and both were secreted in similar proportions in each mutant. More than 90% of the accumulated invertase was secreted at the permissive temperature in sec 18 cells. That percentage was significantly lower for exoglucanase (<65%). Concomitantly, invertase accumulated by this mutant exited from the cells with a lower half time (t 1/2=150 min). These results may be interpreted assuming that exoglucanase is exported by a passive flow of the soluble pool.Non-standard abbreviations p-NPG p-nitrophenyl--d-glucopyranoside - Con A concanavalin A - Tris tris(hydroxymethyl)-amino-methane     

Invertase activity, grape berry development and cell compartmentation

The effect of gibberellic acid on grape (Vitis vinifera L., ev. Sultanina) growth, β-fructofuranosidase (EC 3.2.1.26) activity and carbohydrate levels was investigated throughout berry development and ripening. Although the fruits responded to hormone application with the expected increase in size, growth was not correlated with enzymic activity and hexose accumulation. This suggests that there is no direct regulatory relationship between invertase and the rate of assimilate import. However, fructose:glucose ratios changed from 0.1 in green berries to 1.0 in mature samples. The latter situation can be reconciled with the 1:1 stoichiometry of sucrolysis by invertase. It is suggested that this is attributable to a spatial separation of substrate and enzyme in green tissue. Compartmentation studies indicate that mesocarp cell integrity gradually deteriorates during ripening, which allows invertase to leak out of the vacuole into the surrounding tissue. In fact, the protein fraction retrieved from a buffered medium after incubation of ripening berry slices contained a soluble invertase of presumably vacuolar origin with an acid pH-activity profile and a pI of about 4.     

Changes in Sugar Content and Activities of Sucrose Metabolizing Enzymes in Roots and Nodules of Lentil

Activities of acid and alkaline invertases and sucrose synthase were determined in roots and nodules of lentil at various stages of development. Alkaline invertase and sucrose synthase were both involved in sucrose metabolism in the nodule cytosol, but there was only a small amount of acid invertase present. Activity of sucrose metabolizing enzymes in roots was significantly less than that observed in the nodules. Amongst sugars, sucrose was found to be the main component in the host cytosol. Lentil neutral invertase (LNI) was partially purified from nodules at 50 days after sowing (DAS). Two forms of invertase were identified, i.e., a major form of 71 kDa which was taken for enzyme characterization and a minor form of 270 kDa which was not used for further studies. The purified enzyme exhibited typical hyperbolic saturation kinetics for sucrose hydrolysis. It had a Km of 11.0 to 14.0 mM for sucrose depending upon the temperature, a pH optimum of 6.8 and an optimum temperature of 40 °C. Compared with raffinose and stachyose, sucrose was better substrate for LNI. The enzyme showed no significant hydrolysis of maltose and p-nitrophenyl--D-glucopyranoside, showing its true -fructosidase nature. LNI is completely inhibited by HgCl₂, MnCl₂ and iodoacetamide but not by CaCl₂, MgCl₂ or BaCl₂.     

Differences in invertase activity in embryogenic and non-embryogenic calli from Medicago arborea

The different invertase activities in embryogenic and non-embryogenic calli induced from explants (cotyledons, petioles, hypocotyls and leaves) obtained from Medicago arborea L. subsp. arborea seedlings were evaluated. Total invertase activity was lower in the calli with the greatest embryogenic capacity. The greatest fraction of this activity corresponded to soluble invertase. Wall-bound invertase showed maximum activity during the first two months of culture and the highest activities of this type were found in non-embryogenic calli. Extracellular invertase formed the smallest fraction of the total invertase activity evaluated. Acid and alkaline invertase activities were found in all calli but differences were detected between the embryogenic and non-embryogenic calli. In the former, the activity of both types of invertase exhibited a similar type of behaviour but different from that observed in the non-embryogenic calli. The calli with the greatest embryogenic capacity had very low levels of acid invertase and very high levels of the alkaline form. Soluble invertase – both acid and alkaline – accounted for the highest fraction after the first two months of culture and was present in lower amounts in the embryogenic than in the non-embryogenic calli. Regarding bound invertase, the highest production was seen to correspond to acid invertase. The extracellular invertase evaluated corresponded to the acid form since the alkaline extracellular invertase did not show any physiologically significant activity.     

Effect of cultivation conditions on invertase production by hyperproducing <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> isolates

Invertase (β-D-fructofuranoside fructohydrolase, EC 3.2.1.26) finds major uses in confectionery and in the production of invert syrup. In the present study, we report on invertase production by wild cultures of Saccharomyces cerevisiae. The yeast strains were isolated from dates available in a local market. Five hyperproducing yeast strains (>100- fold higher invertase activity) were kinetically analysed for invertase production. Saccharomyces cerevisiae strain GCA-II was found to be a better invertase-yielding strain than all the other isolates. The values of Q_p and Y_p/s for GCA-II were economical as compared to other Saccharomyces cultures. The effect of sucrose concentration, rate of invertase synthesis, initial pH of fermentation medium and different organic nitrogen sources on the production of invertase under submerged culture conditions was investigated. Optimum concentrations of sucrose, urea and pH were 3, 0.2 (w/v), and 6 respectively. The increase in the enzyme yield obtained after optimization of the cultural conditions was 47.7%.     

Physiological characterization of starch-utilizing <Emphasis Type="Italic">Saccharomyces</Emphasis> sp. SK0704 isolated from kimchi

Saccharomyces sp. SK0704 (further defined as SK0704) isolated from long-term-ripening kimchi was identified by a biochemical method with an API kit; its physiology was found to be very similar to that of S. cerevisiae ATCC 26603 (further defined as ATCC 26603), except in terms of starch utilization. SK0704 did not excrete extracellular glucoamylase, but utilized starch as a sole carbon source under only aerobic conditions. Crude enzyme excreted from SK0704 catalyzed the saccharification of starch to glucose, but ATCC 26603 did not. The PCR product obtained using the chromosomal DNA of SK0704 and the primers designed on the basis of the extracellular glucoamylase-coding gene of S. diastaticus was homologous with the intracellular sporulation-specific glucoamylase of S. cerevisiae. SDS-PAGE pattern of soluble protein extracted from yeast cells grown on glucose was greatly different from that on starch. From these results, we proposed that the SK0704 may have a specific physiological function for starch catabolism such as membrane transport system and intracellular sac-charification of starch.     

Intracellular pH inSchizosaccharomyces pombe — Comparison withSaccharomyces cerevisiae

We examined cytoplasmic pH regulation inSchizosaccharomyces pombe andSaccharomyces cerevisiae using pH-sensitive fluorescent dyes. Of several different fluorescent compounds tested, carboxy-seminaphthorhodafluor-1 (C.SNARF-1) was the most effective. Leakage of C.SNARF-1 fromS. pombe was much slower than leakage fromC. cerevisiae. Using the pH-dependent fluorescence of C.SNARF-1 we showed that at an external pH of 7, mean resting internal pH was 7.0 forS. pombe and 6.6 forS. cerevisiae. We found that internal pH inS. pombe was maintained over a much narrower range in response to changes in external pH, especially at acidic pH. The addition of external glucose caused an intracellular alkalinization in both species, although the effect was much greater inS. cerevisiae than inS. pombe. The plasma membrane H⁺-ATPase inhibitor diethylstilbestrol reduced both the rate and extent of alkalinisation, with an IC₅₀ of approximately 35 M in both species. Amiloride also inhibited internal alkalinisation with IC₅₀'s of 745 M forS. cerevisiae and 490 M forS. pombe.Abbreviations C.SNARF-1 carboxy-seminaphthorhodafluor-1 (-AM-acetoxy-methylester) - DES diethylstilbestrol - IC₅₀ apparent inhibitory constant - BCECF 2,7-bis-(carboxyethyl)-5(6)-carboxyfluorescein (-AM--pentaacetoxymethyl ester) - FDA fluorescein diacetate     

Improving freezing tolerance of transgenic tobacco expressing sucrose: sucrose 1-fructosyltransferase gene from Lactuca sativa

Sucrose: sucrose 1-fructosyltransferase (1-SST) cDNA from Lactuca sativa, coding the enzyme responsible for lower degree polymers fructan biosynthesis, was cloned by RT-PCR and RACE methods. The 1-SST cDNA under the control of CaMV 35S promoter was introduced into tobacco by Agrobacterium-mediated leaf disc transformation protocol. Fructan synthesis in vitro and carbohydrate analysis showed that sense transgenic tobacco plant displayed sucrose: sucrose 1-fructosyltransferse activity. After freezing stress, significant increases in electrolyte leakage and malondialdehyde were found in the wild type and anti-sense transgenic plants, while no apparent differences were observed in sense transgenic plants. Meanwhile, water soluble carbohydrate, fructan and fructose of sense transgenic plants remarkably increased, compared with those of wild type and anti-sense plants. No significant difference was detected in superoxide dismutase activity between transgenic and wild type plants. The above results demonstrated that the expression of 1-SST gene improved the freezing resistance of transgenic tobacco plants.     

Environmental control of protein export of Bacillus licheniformis NCIB 6346 reveals two types of extracellular proteins

Teichuronic acid was the major anionic polymer of Bacillus licheniformis NCIB 6346 durign phosphate-limited (P-limited) growth in the chemostat. This polymer was also present in significant quantities when B. licheniformis was grown under carbon-limited (C-limited) or magnesium-limited (Mg-limited) conditions where teichoic acid predominated in the cell wall. However, the cell wall composition was not of significance in protein export and the parameters for the excretion process were found to be environmental. In particular, two types of extracellular proteins were identified: the first type of enzyme, penicillinase, was only weakly catabolite repressed; was maximally synthesized and secreted during P-limited growth; was unaffected by growth in high Na⁺ media but its production was inhibited by gramicidin. The second type of enzyme, -amylase, was strongly catabolite repressed and its export was markedly inhibited during P-limited growth or in the presence of Na⁺ or gramicidin. It is noteworthy that the penicillinase carries a glyceride-cysteine modification at its N-terminus whilst the -amylase does not.     

Soluble acid invertase determines the hexose-to-sucrose ratio in cold-stored potato tubers

Cold storage of potato (Solanum tuberosum L.) tubers is known to cause accumulation of reducing sugars. Hexose accumulation has been shown to be cultivar-dependent and proposed to be the result of sucrose hydrolysis via invertase. To study whether hexose accumulation is indeed related to the amount of invertase activities, two different approaches were used: (i) neutral and acidic invertase activities as well as soluble sugars were measured in cold-stored tubers of 24 potato cultivars differing in the cold-induced accumulation of reducing sugars and (ii) antisense potato plants with reduced soluble acid invertase activities were created and the soluble sugar accumulation in cold-stored tubers was studied. The cold-induced hexose accumulation in tubers from the different potato cultivars varied strongly (up to eightfold). Large differences were also detected with respect to soluble acid (50-fold) and neutral (5-fold) invertase activities among the different cultivars. Although there was almost no correlation between the total amount of invertase activity and the accumulation of reducing sugars there was a striking correlation between the hexose/sucrose ratio and the extractable soluble invertase activitiy. To exclude the possibility that other cultivar-specific features could account for the obtained results, the antisense approach was used to decrease the amount of soluble acid invertase activity in a uniform genetic background. To this end the cDNA of a cold-inducible soluble acid invertase (EMBL nucleicacid database accession no. X70368) was cloned from the cultivar Desirée, and transgenic potato plants were created expressing this cDNA in the antisense orientation under control of the constitutive 35S cauliflower mosaic virus promotor. Analysis of the harvested and cold-stored tubers showed that inhibition of the soluble acid invertase activity leads to a decreased hexose and an increased sucrose content compared with controls. As was already found for the different potato cultivars the hexose/sucrose ratio decreased with decreasing invertase activities but the total amount of soluble sugars did not significantly change. From these data we conclude that invertases do not control the total amount of soluble sugars in coldstored potato tubers but are involved in the regulation of the ratio of hexose to sucrose.The authors are grateful to Heike Deppner and Christiane Prüßner for tuber harvest and technical assistance during the further analysis. We thank Andrea Knospe for taking care of tissue culture, Birgit Schäfer for patient photographic work, Hellmuth Fromme and the greenhouse personnel for attending plant growth and development and Astrid Basner for elucidating the sequence of clone INV-19. The work was supported by the Bundesministerium für Forschung und Technologie (BMFT).     

Control of l-amino acid oxidase in Neurospora crassa by different regulatory circuits

l-Amino acid oxidase is synthesized in Neurospora crassa in response to three different physiological stimuli: (i) starvation in phosphate buffer, (ii) mating, and (iii) nitrogen derepression in the presence of amino acids. During starvation in phosphate buffer, or after mating, l-amino acid oxidase synthesis occurred in parallel with that of tyrosinase. Exogenous sulfate repressed the formation of the two enzymes in starved cultures, but not in mated cultures. Sulfate repression was relieved by protein synthesis inhibitors, suggesting that the effect of sulfate required the synthesis of a metabolically unstable protein repressor. With amino acids as the sole nitrogen source only l-amino acid oxidase was produced. Under these conditions enzyme synthesis was repressed by ammonium and was insensitive to sulfate. Biochemical evidence suggested that the l-amino acid oxidase formed under the three different conditions was the same protein. Therefore, the expression of l-amino acid oxidase appeared to be under the control of least two regulatory circuits. One, also controlling tyrosinase, seems to respond to developmental signals related to sexual morphogenesis. The other, controlling other enzymes of the nitrogen catabolic system, is used by the organism to obtain nitrogen from alternative sources such as proteins and amino acids.     

Reduction in the intracellular cAMP level triggers initiation of sexual development in fission yeast

Summary Schizosaccharomyces pombe initiates sexual development in response to nutritional starvation. The level of cAMP inS. pombe cells changed during the transition from exponential growth to stationary phase. It also changed in response to a shift from nitrogen-rich medium to nitrogen-free medium. A decrease of approximately 50% was observed in either case, suggesting thatS. pombe cells contain less cAMP when they initiate sexual development.S. pombe cells that expressed the catalytic domain ofSaccharomyces cerevisiae adenylyl cyclase from theS. pombe adh1 promoter contained 5 times as much cAMP as the wild type and could not initiate mating and meiosis. These observations, together with previous findings that exogenously added cAMP inhibits mating and meiosis and that cells with little cAMP are highly derepressed for sexual development, strongly suggest that cAMP functions as a key regulator of sexual development inS. pombe. Thepde1 gene, which encodes a protein homologous toS. cerevisiae cAMP phosphodiesterase I, was isolated as a multicopy suppressor of the sterility caused by a high cAMP level. Disruption ofpde1 madeS. pombe cells partially sterile and meiosis-deficient, indicating that this cAMP phosphodiesterase plays an important role in balancing the cAMP level in vivo.